qgeocodereplyqgc.cpp 12.7 KB
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/****************************************************************************
**
** Copyright (C) 2013 Aaron McCarthy <mccarthy.aaron@gmail.com>
** Contact: http://www.qt-project.org/legal
**
** This file is part of the QtLocation module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia.  For licensing terms and
** conditions see http://qt.digia.com/licensing.  For further information
** use the contact form at http://qt.digia.com/contact-us.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file.  Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Digia gives you certain additional
** rights.  These rights are described in the Digia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file.  Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
**
** $QT_END_LICENSE$
**
** 2015.4.4
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** Adapted for use with QGroundControl
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**
** Gus Grubba <mavlink@grubba.com>
**
****************************************************************************/

#include <QtCore/QJsonDocument>
#include <QtCore/QJsonObject>
#include <QtCore/QJsonArray>
#include <QtPositioning/QGeoCoordinate>
#include <QtPositioning/QGeoAddress>
#include <QtPositioning/QGeoLocation>
#include <QtPositioning/QGeoRectangle>

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#include "qgeocodereplyqgc.h"
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enum QGeoCodeTypeGoogle {
    GeoCodeTypeUnknown,
    StreetAddress, // indicates a precise street address.
    Route, // indicates a named route (such as "US 101").
    Intersection, // indicates a major intersection, usually of two major roads.
    Political, // indicates a political entity. Usually, this type indicates a polygon of some civil administration.
    Country, // indicates the national political entity, and is typically the highest order type returned by the Geocoder.
    AdministrativeAreaLevel1, // indicates a first-order civil entity below the country level. Within the United States, these administrative levels are states.
    AdministrativeAreaLevel2, // indicates a second-order civil entity below the country level. Within the United States, these administrative levels are counties.
    AdministrativeAreaLevel3, // indicates a third-order civil entity below the country level. This type indicates a minor civil division.
    ColloquialArea, // indicates a commonly-used alternative name for the entity.
    Locality, // indicates an incorporated city or town political entity.
    Sublocality, // indicates a first-order civil entity below a locality. For some locations may receive one of the additional types: sublocality_level_1 through to sublocality_level_5. Each sublocality level is a civil entity. Larger numbers indicate a smaller geographic area.
    SublocalityLevel1,
    SublocalityLevel2,
    SublocalityLevel3,
    SublocalityLevel4,
    SublocalityLevel5,
    Neighborhood, // indicates a named neighborhood
    Premise, // indicates a named location, usually a building or collection of buildings with a common name
    Subpremise, // indicates a first-order entity below a named location, usually a singular building within a collection of buildings with a common name
    PostalCode, // indicates a postal code as used to address postal mail within the country.
    NaturalFeature, // indicates a prominent natural feature.
    Airport, // indicates an airport.
    Park, // indicates a named park.
    PointOfInterest, // indicates a named point of interest. Typically, these "POI"s are prominent local entities that don't easily fit in another category such as "Empire State Building" or "Statue of Liberty."
    Floor, // indicates the floor of a building address.
    Establishment, // typically indicates a place that has not yet been categorized.
    Parking, // indicates a parking lot or parking structure.
    PostBox, // indicates a specific postal box.
    PostalTown, // indicates a grouping of geographic areas, such as locality and sublocality, used for mailing addresses in some countries.
    RoomIndicates, // the room of a building address.
    StreetNumber, // indicates the precise street number.
    BusStation, //  indicate the location of a bus stop.
    TrainStation, //  indicate the location of a train stop.
    TransitStation, // indicate the location of a public transit stop.
};

class JasonMonger {
public:
    JasonMonger();
    QSet<int> json2QGeoCodeTypeGoogle(const QJsonArray &types);
private:
    int _getCode(const QString &key);
    QMap<QString, int> _m;
};

JasonMonger::JasonMonger()
{
    _m[QStringLiteral("street_address")] = StreetAddress;
    _m[QStringLiteral("route")] = Route;
    _m[QStringLiteral("intersection")] = Intersection;
    _m[QStringLiteral("political")] = Political;
    _m[QStringLiteral("country")] = Country;
    _m[QStringLiteral("administrative_area_level_1")] = AdministrativeAreaLevel1;
    _m[QStringLiteral("administrative_area_level_2")] = AdministrativeAreaLevel2;
    _m[QStringLiteral("administrative_area_level_3")] = AdministrativeAreaLevel3;
    _m[QStringLiteral("colloquial_area")] = ColloquialArea;
    _m[QStringLiteral("locality")] = Locality;
    _m[QStringLiteral("sublocality")] = Sublocality;
    _m[QStringLiteral("sublocality_level_1")] = SublocalityLevel1;
    _m[QStringLiteral("sublocality_level_2")] = SublocalityLevel2;
    _m[QStringLiteral("sublocality_level_3")] = SublocalityLevel3;
    _m[QStringLiteral("sublocality_level_4")] = SublocalityLevel4;
    _m[QStringLiteral("sublocality_level_5")] = SublocalityLevel5;
    _m[QStringLiteral("neighborhood")] = Neighborhood;
    _m[QStringLiteral("premise")] = Premise;
    _m[QStringLiteral("subpremise")] = Subpremise;
    _m[QStringLiteral("postal_code")] = PostalCode;
    _m[QStringLiteral("natural_feature")] = NaturalFeature;
    _m[QStringLiteral("airport")] = Airport;
    _m[QStringLiteral("park")] = Park;
    _m[QStringLiteral("point_of_interest")] = PointOfInterest;
    _m[QStringLiteral("floor")] = Floor;
    _m[QStringLiteral("establishment")] = Establishment;
    _m[QStringLiteral("parking")] = Parking;
    _m[QStringLiteral("post_box")] = PostBox;
    _m[QStringLiteral("postal_town")] = PostalTown;
    _m[QStringLiteral("room indicates")] = RoomIndicates;
    _m[QStringLiteral("street_number")] = StreetNumber;
    _m[QStringLiteral("bus_station")] = BusStation;
    _m[QStringLiteral("train_station")] = TrainStation;
    _m[QStringLiteral("transit_station")] = TransitStation;
}

int JasonMonger::_getCode(const QString &key) {
    return _m.value(key, GeoCodeTypeUnknown);
}

QSet<int> JasonMonger::json2QGeoCodeTypeGoogle(const QJsonArray &types) {
    QSet<int> result;
    for (int i=0; i<types.size(); ++i) {
        result |= _getCode(types[i].toString());
    }
    return result;
}

JasonMonger kMonger;

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QGeoCodeReplyQGC::QGeoCodeReplyQGC(QNetworkReply *reply, QObject *parent)
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:   QGeoCodeReply(parent), m_reply(reply)
{
    connect(m_reply, SIGNAL(finished()), this, SLOT(networkReplyFinished()));
    connect(m_reply, SIGNAL(error(QNetworkReply::NetworkError)),
            this, SLOT(networkReplyError(QNetworkReply::NetworkError)));

    setLimit(1);
    setOffset(0);
}

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QGeoCodeReplyQGC::~QGeoCodeReplyQGC()
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{
    if (m_reply)
        m_reply->deleteLater();
}

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void QGeoCodeReplyQGC::abort()
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{
    if (!m_reply)
        return;

    m_reply->abort();

    m_reply->deleteLater();
    m_reply = 0;
}

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void QGeoCodeReplyQGC::networkReplyFinished()
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{
    if (!m_reply)
        return;

    if (m_reply->error() != QNetworkReply::NoError)
        return;

    QJsonDocument document = QJsonDocument::fromJson(m_reply->readAll());
    QJsonObject object = document.object();
    
    if (object.value(QStringLiteral("status")) != QStringLiteral("OK")) {
        QString error = object.value(QStringLiteral("status")).toString();
        qWarning() << m_reply->url() << "returned" << error;
        setError(QGeoCodeReply::CommunicationError, error);
        m_reply->deleteLater();
        m_reply = 0;
        return;
    }

    QList<QGeoLocation> locations;
    QJsonArray results = object.value(QStringLiteral("results")).toArray();
    for (int i=0; i<results.size(); ++i) {
        if (!results[i].isObject())
            continue;

        QJsonObject geocode = results[i].toObject();
        
        QGeoAddress address;
        if (geocode.contains(QStringLiteral("formatted_address"))) {
            address.setText(geocode.value(QStringLiteral("formatted_address")).toString());
        }
        
        
        if (geocode.contains(QStringLiteral("address_components"))) {
            QJsonArray ac = geocode.value(QStringLiteral("address_components")).toArray();

            for (int j=0; j<ac.size(); ++j) {
                if (!ac[j].isObject())
                    continue;

                QJsonObject c = ac[j].toObject();
                if (!c.contains(QStringLiteral("types")))
                    continue;

                QSet<int> types = kMonger.json2QGeoCodeTypeGoogle(c[QStringLiteral("types")].toArray());
                QString long_name = c[QStringLiteral("long_name")].toString();
                QString short_name = c[QStringLiteral("short_name")].toString();
                if (types.contains(Country)) {
                    address.setCountry(long_name);
                    address.setCountryCode(short_name);
                } else if (types.contains(AdministrativeAreaLevel1)) {
                    address.setState(long_name);
                } else if (types.contains(AdministrativeAreaLevel2)) {
                    address.setCounty(long_name);
                } else if (types.contains(Locality)) {
                    address.setCity(long_name);
                } else if (types.contains(Sublocality)) {
                    address.setDistrict(long_name);
                } else if (types.contains(PostalCode)) {
                    address.setPostalCode(long_name);
                } else if (types.contains(StreetAddress) || types.contains(Route) || types.contains(Intersection)) {
                    address.setStreet(long_name);
                }
            }
        }

        QGeoCoordinate coordinate;
        QGeoRectangle boundingBox;
        if (geocode.contains(QStringLiteral("geometry"))) {
            QJsonObject geom = geocode.value(QStringLiteral("geometry")).toObject();
            if (geom.contains(QStringLiteral("location"))) {
                QJsonObject location = geom.value(QStringLiteral("location")).toObject();
                coordinate.setLatitude(location.value(QStringLiteral("lat")).toDouble());
                coordinate.setLongitude(location.value(QStringLiteral("lng")).toDouble());
            }
            if (geom.contains(QStringLiteral("bounds"))) {
                QJsonObject bounds = geom.value(QStringLiteral("bounds")).toObject();
                QJsonObject northeast = bounds.value(QStringLiteral("northeast")).toObject();
                QJsonObject southwest = bounds.value(QStringLiteral("southwest")).toObject();
                QGeoCoordinate topRight(northeast.value(QStringLiteral("lat")).toDouble(),
                                        northeast.value(QStringLiteral("lng")).toDouble());
                QGeoCoordinate bottomLeft(southwest.value(QStringLiteral("lat")).toDouble(),
                                          southwest.value(QStringLiteral("lng")).toDouble());
                boundingBox.setTopRight(topRight);
                boundingBox.setBottomLeft(bottomLeft);
            }
        }

        QGeoLocation location;
        location.setAddress(address);
        location.setCoordinate(coordinate);
        location.setBoundingBox(boundingBox);

        locations << location;
    }

    setLocations(locations);
    setFinished(true);

    m_reply->deleteLater();
    m_reply = 0;
}

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void QGeoCodeReplyQGC::networkReplyError(QNetworkReply::NetworkError error)
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{
    Q_UNUSED(error)
    if (!m_reply)
        return;
    setError(QGeoCodeReply::CommunicationError, m_reply->errorString());
    m_reply->deleteLater();
    m_reply = 0;
}